Author(s): Auwal R. Auwal, Adamu S. Maikifi, Ahmed A. Gololo, Rayyanu A. Umar, Adamu J. Alhassan, Isah A. Isah, Mohamed Rizwan

Email(s): mdriz1996@gmail.com

DOI: 10.52711/0974-360X.2024.00490   

Address: Auwal R. Auwal1, Adamu S. Maikifi2, Ahmed A. Gololo3, Rayyanu A. Umar1, Adamu J. Alhassan1, Isah A. Isah1, Mohamed Rizwan2*
1Department of Biochemistry, Faculty of Sciences, Kano State University of Science and Technology KUST Wudil, Kano, Nigeria.
2Department of Pharmaceutics, SRM Institute of Science and Technology, Tamil Nadu, India.
3Faculty of Pharmaceutical Sciences, Chulalongkorn University, Bangkok, Thailand.
*Corresponding Author

Published In:   Volume - 17,      Issue - 7,     Year - 2024


ABSTRACT:
The increasing focus on natural products for curing today's ailments has led to extensive research on medicinal plants, particularly in Africa, known for its abundance of such plants. To fully utilize these plants' therapeutic potential, identification and phytochemical screening are essential first steps. Researchers are interested in the tree species Ficus sycomorus, which is a member of the Moraceae family and has important ecological, medicinal, and commercial importance. The presence or lack of different chemicals in the methanolic extracts of F. sycomorus stem bark and leaves were evaluated in this work using qualitative and quantitative analyses, FT-IR, and GC-MS. Numerous different chemicals were found in the stem bark and leaves, according to the phytochemical screening. The stem bark contained quinine, alkaloids, anthocyanins, anthraquinones, cardiac glycosides, chalcones, coumarins, flavonoids, saponins, tannins, and terpenoids. Likewise, the leaves included quinine, saponins, tannins, terpenoids, anthocyanins, cardiac glycosides, flavonoids, flavonones, flavonols, phenols, phytosterols, and terpenoids. The concentrations of these substances were obtained using quantitative analysis. The amounts of alkaloids, anthraquinones, cardiac glycosides, flavonoids, phenolics, saponins, and tannins were found to be reasonably variable in both the stem bark and the leaf extract. Particular functional groups in the stem bark and leaves were found using FT-IR analysis. While the leaves included alcohols, phenols, alkenes, alkynes, aliphatic amines, and nitro groups, the stem bark displayed 1,2-amines, amide, nitro groups, alkanes, and alkyl halides. Moreover, the specific chemicals contained were revealed using GC-MS analysis. It was likely that propenamide, sucrose, pologalitol, amyl nitrite, glucose, isobutyl amine, and other chemicals were present in the stem bark. Amyl nitrate, pentanoic acid, aminoacetonitrile, propanamide, guanidine methyl, urea, and other chemicals were found in the leaves. The stem bark and leaves of F. sycomorus exhibited a wide range of phytochemicals. Compounds with possible antibacterial and antioxidant qualities were identified by the GC-MS analysis. These results highlight the significance of investigating F. sycomorus's potential for medical use for a range of ailments. New medicinal compounds may be found through further study on this plant.


Cite this article:
Auwal R. Auwal, Adamu S. Maikifi, Ahmed A. Gololo, Rayyanu A. Umar, Adamu J. Alhassan, Isah A. Isah, Mohamed Rizwan. Phytochemical screening and GC-MS studies on stem-bark and leaves Methanolic extract of Ficus sycomorus. Research Journal of Pharmacy and Technology. 2024; 17(7):3134-0. doi: 10.52711/0974-360X.2024.00490

Cite(Electronic):
Auwal R. Auwal, Adamu S. Maikifi, Ahmed A. Gololo, Rayyanu A. Umar, Adamu J. Alhassan, Isah A. Isah, Mohamed Rizwan. Phytochemical screening and GC-MS studies on stem-bark and leaves Methanolic extract of Ficus sycomorus. Research Journal of Pharmacy and Technology. 2024; 17(7):3134-0. doi: 10.52711/0974-360X.2024.00490   Available on: https://www.rjptonline.org/AbstractView.aspx?PID=2024-17-7-23


REFERENCE:
1.    Fowler MW. Plants, medicines and man. Journal of the Science of Food and Agriculture. 2006; 86(12): 1797-1804.
2.    Dar RA. Shahnawaz M. Qazi PH. General overview of medicinal plants: A review. The journal of phytopharmacology. 2017; 6(6): 349-351.
3.    Singh D. Singh B. Goel RK. Traditional uses, phytochemistry and pharmacology of Ficus religiosa: A review. Journal of ethnopharmacology. 2011; 134(3): 565-583.
4.    Kassa A. Tadele Y. Mekasha Y. Ficus sycomorus (Sycamore Fig or Shola) leaf, a potential source of protein for ruminants: a review. J Fisheries Livest Prod. 2015; 3(152): 2.
5.    Braide W. Dokubo K. Adeleye S. Phytochemical properties, toxicological screening and antibacterial qualities of various parts extracts of Ficus sycomorus. Journal of Medicinal Plant and Herbal Therapy Research. 2018; 6: 1-8.
6.    Olaoluwa O. Taiwo O. Nahar L. Ethnopharmacology, phytochemistry and biological activities of the African species of the genus Ficus L. Trends in Phytochemical Research. 2022; 6(1): 46-69.
7.    Odounharo OG. Gnansounou SC. Salako KV. Medicinal use patterns of Parkia biglobosa (Jacq.) Benth. and Vitellaria paradoxa (Gaertn. F), two important traditional agroforestry species in Benin, West-Africa. Advances in Traditional Medicine. 2022; 22(3): 531-545.
8.    Hossain MA. A review on Ficus sycomorus: A potential indigenous medicinal plant in Oman. Journal of King Saud University-Science. 2019; 31(4): 961-965.
9.    Quansah L. Mahunu GK. Tahir HE. Parkia biglobosa: Phytochemical Constituents, Bioactive Compounds, Traditional and Medicinal Uses. Wild Fruits: Composition, Nutritional Value and Products. 2019: 271-284.
10.    Alhassan AJ. Lawal TA. Dangambo M. Antidiabetic properties of thirteen local medicinal plants in Nigeria, a review. J Pharma Res 2017a. 2017; 6(8): 2170-2189.
11.    Aumeeruddy-Thomas Y. Hossaert-McKey M. Fig Trees and Humans: Ficus Ecology and Mutualisms across Cultures: Berghahn Books 2024.
12.    Senguttuvan J. Paulsamy S. Karthika K. Phytochemical analysis and evaluation of leaf and root parts of the medicinal herb, Hypochaeris radicata L. for in vitro antioxidant activities. Asian Pacific journal of tropical biomedicine. 2014; 4: S359-S367.
13.    Verma AK. Singh S. Phytochemical analysis and in vitro cytostatic potential of ethnopharmacological important medicinal plants. Toxicology Reports. 2020; 7: 443-452.
14.    Wu H. Guo J. Chen S. Recent developments in qualitative and quantitative analysis of phytochemical constituents and their metabolites using liquid chromatography–mass spectrometry. Journal of Pharmaceutical and Biomedical Analysis. 2013; 72: 267-291.
15.    Shaikh JR. Patil M. Qualitative tests for preliminary phytochemical screening: An overview. International Journal of Chemical Studies. 2020; 8(2): 603-608.
16.    Ramasubramaniaraja R. Pharmacognostical phytochemical including GC-MS investigation of ethanolic leaf extracts of Abutilon indicum (Linn). Asian Journal of Pharmaceutical Analysis. 2011; 1(4): 88-92.
17.    Khan S. Khan S. Khan L. Fourier Transform Infrared Spectroscopy: Fundamentals and Application in Functional Groups and Nanomaterials Characterization. Handbook of Materials Characterization. 2018: 317-344.
18.    Vetter W. Gas Chromatography with Mass Spectrometry (GC‐MS). 2015.
19.    Tacchini M. Spagnoletti A. Marieschi M. Phytochemical profile and bioactivity of traditional ayurvedic decoctions and hydro-alcoholic macerations of Boerhaavia diffusa L. and Curculigo orchioides Gaertn. Natural Product Research. 2015; 29(22): 2071-2079.
20.    Santhi K. Sengottuvel R. Qualitative and quantitative phytochemical analysis of Moringa concanensis Nimmo. International Journal of Current Microbiology and Applied Sciences. 2016; 5(1): 633-640.
21.    Gul R. Jan SU. Faridullah S. Preliminary phytochemical screening, quantitative analysis of alkaloids, and antioxidant activity of crude plant extracts from Ephedra intermedia indigenous to Balochistan. The Scientific World Journal. 2017; 2017.
22.    Pan X. Welti R. Wang X. Quantitative analysis of major plant hormones in crude plant extracts by high-performance liquid chromatography–mass spectrometry. Nature protocols. 2010; 5(6): 986-992.
23.    Kiruba NJ. Pradeep MA. Juliana SJB. Study of phytoconstituents and antibacterial activity of Kappaphycus alvarezii. International Journal of Current Microbiology and Applied Sciences. 2015; 4: 1209-1217.
24.    Eswaraiah G. Peele KA. Krupanidhi S. Identification of bioactive compounds in leaf extract of Avicennia alba by GC-MS analysis and evaluation of its in-vitro anticancer potential against MCF7 and HeLa cell lines. Journal of King Saud University-Science. 2020; 32(1): 740-744.
25.    Gautam K. Kumar P. Poonia S. Larvicidal activity and GC-MS analysis of flavonoids of Vitex negundo and Andrographis paniculata against two vector mosquitoes Anopheles stephensi and Aedes aegypti. Journal of Vector Borne Diseases. 2013; 50(3): 171.
26.    Thakur P. Thakur U. Kaushal P. A review on gc-ms hyphenated technique. Asian Journal of Pharmaceutical Analysis. 2021; 11(4): 285-292.
27.    Jeong HY. Kim JY. Kim JW. Graphene oxide thin films for flexible nonvolatile memory applications. Nano letters. 2010; 10(11): 4381-4386.
28.    Yilmaz B. Akba V. Determination and Pharmacokinetics of Ibuprofen in Rabbit Plasma by GC-MS Method. Research Journal of Pharmacy and Technology. 2011; 4(1): 52-56.
29.    Parmon V. Panov G. Uriarte A. Nitrous oxide in oxidation chemistry and catalysis: application and production. Catalysis Today. 2005; 100(1-2): 115-131.
30.    Sawamura S. Kingery WS. Davies MF. Antinociceptive action of nitrous oxide is mediated by stimulation of noradrenergic neurons in the brainstem and activation of α2B adrenoceptors. Journal of Neuroscience. 2000; 20(24): 9242-9251.
31.    Espinoza R. Hamillton J. Mortalidad materna internacional y Preeclampsia.: la carta mundial de la enfermedad. Última actualización el Jueves. 2015.
32.    Coleman M. McLain A. Moran B. Impact of previous surgery on time taken for incision and division of adhesions during laparotomy. Diseases of the colon & rectum. 2000; 43: 1297-1299.
33.    Maurya R. Mir J. NO‐, CO‐, and H2S‐Based Metallopharmaceuticals. Advances in Metallodrugs: Preparation and Applications in Medicinal Chemistry. 2020: 157-201.



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